atomisation
发音:英 [??tɑ?m??ze??n] ;美 [??tɑ?m??ze??n]。
基础释义:原子化;微粒化;分散;使微粒化。
英语范文:Atomisation is a process of breaking something into smaller and smaller particles. It can be achieved through various methods such as grinding, pulverising, and dispersing. Atomisation can be useful in various applications such as pharmaceuticals, cosmetics, and food processing.
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Atomisation
Atomisation is a process of breaking something into smaller and smaller parts, until it becomes so small that it can no longer be seen with the naked eye. This process is commonly used in science and technology, where it can be applied to various materials, including substances, liquids, and gases.
In the field of chemistry, atomisation plays an important role in the production of fine chemicals, where substances are broken down into their smallest components to ensure purity and consistency. In the field of manufacturing, atomisation is used to create a fine mist of materials for spraying, coating, and other processes.
In addition to its practical applications, atomisation has also been studied for its fundamental scientific properties. Researchers have discovered that atomised materials exhibit unique properties that are not present in their original form. These properties can be used to develop new materials and processes that have potential applications in various fields.
In conclusion, atomisation is a fundamental process that plays an important role in science and technology. It can be applied to various materials and substances to produce pure and consistent products, as well as new materials with unique properties. Understanding atomisation and its applications can help us to develop new technologies and processes that will have a positive impact on society.
(300字的英语范文)
Using Atomisation Technology
In today's world, atomisation technology is becoming increasingly important in various fields. From medicine to manufacturing, atomisation has opened up new possibilities for creating fine particles and liquids.
In the medical field, atomisation has been used to deliver drugs directly to the lungs, which can improve the effectiveness of treatment and reduce side effects. In manufacturing, atomisation has been used to create precise coatings and adhesives for various applications, such as automotive and aerospace industries.
Moreover, atomisation technology has also been used to create new materials with unique properties. For example, atomised polymers can be used to create lightweight and strong materials that can be used in various applications, such as sports equipment and building materials.
Overall, atomisation technology has opened up new possibilities for creating fine particles and liquids, as well as new materials with unique properties. Understanding and using atomisation technology can help us to develop new technologies and processes that will have a positive impact on society.
atomisation
发音:英 [??tɑ?z?e??n] 美 [??tɑ?z?e??n]
英语范文:
The atomisation of society has become increasingly common in modern times. With the rise of individualism and the emphasis on self-expression, people are encouraged to pursue their own interests and goals, regardless of the impact on others. However, this approach can lead to a fragmented society where individuals are disconnected from each other and lack a sense of community.
On the other hand, there are also benefits to atomisation. It allows individuals to be more self-reliant and independent, enabling them to make their own decisions and take responsibility for their own actions. At the same time, atomisation can also foster creativity and innovation, as individuals are free to explore new ideas and invent new solutions to problems.
However, we must also be mindful of the negative consequences of atomisation. It can lead to loneliness and isolation, as individuals are disconnected from others and lack support systems. It can also weaken social bonds and weaken the sense of community, leading to a lack of social cohesion and solidarity.
Therefore, we must strike a balance between individualism and community. We must encourage individuals to pursue their own interests and goals, while also fostering a sense of community and solidarity. Only then can we create a more cohesive and inclusive society that is both individualistic and community-focused.
In conclusion, atomisation is a complex phenomenon that has both positive and negative consequences. We must be mindful of these consequences and strive to strike a balance between individualism and community.
